Density = mass/volume
Density of the cube = 8g/2cm3 = 4g/cm3
Density = Mass/Volume = 150/6 = 25 grams per cm3.
2.1 grams per centimeter cubed
4 centimeters cubed! Density = grams/cm3 Density = 13 g/4 cm3 = 3.25 g/cm3 =========
120/200 = 3/5 = 0.6 g/cm3
Centimeters are not the right units to use for volume. Although, if it is centimeters cubed(cm^3) then it would be: 33.3g / 6.02cm^3 = 5.53156 g/cm^3
mass = density x volume Mass = 5 grams per centimeter cubed x 10 centimeters cubed = 50 grams
No. A gram is a unit of mass. Centimeters cubed is a unit of volume. A milliliter is equivalent volume to a cubic centimeter, though.Common units of density are grams/milliliter or grams/cm3, which are equivalent.
Density = Mass/Volume = 150/6 = 25 grams per cm3.
Area of cylinder base = pi x Radius squared (πr2) Radius is in centimeters (cm) Area is in centimeters squared (cm2) ---- Volume = Area x Height Area is in centimeters squared (cm2) Height is in centimeters (cm) Volume is in centimeters cubed (cm3) ---- Mass = Volume x Density Density is in grams centimeter cubed (g/cm3) Volume is in centimeters cubed (cm3) Mass is in grams (g)
2.1 grams per centimeter cubed
Volume = mass / density = 554g / 3.1 gcm-3 ~= 178.7 cm3
Any object with an average density of 1.538 g/cc.
The density must be 22.5 GRAMS per cm cubed, not 22.5 cm cubed. Then, Density = Mass/Volume implies Mass = Density*Volume = 22.5 * 5.42 = 121.95 grams.
Density = mass(in grams)/volume ( volume in centimeters cubed. cc ) 9.6 kilograms = 9600 grams 15 cm^3 = 3375 cc Density = 9600 grams/3375 cc = 2.84 grams/cubic centimeters ( or milliliters) ( real density of iron is 7.86 g/ml )
2 g/cm3 Because density = mass / volume so u do 40 divided by 20 and get 2
Volume cannot be "centemeters squared. it must be "centimeters cubed" cm3. The density of a 30cm3 ball with mass 33.0 g is 33/30 = 1.1
If the density of mercury is 13.546 g per cm cubed, the volume occupied by 999 grams of mercury is 73.7 cubic centimeters. papadantonakis.com/images/d/d0/Chem_101_Lecture_Notes_6.pdf